[Effectiveness of different alpha-tocopherol derivatives in preventing experimental muscular dystrophy in chickens].

Activity of vitamin E and its derivatives--alpha-tocopheryl quinone, its short chain analogue and alpha-tocopheryl acetate also containing short chain molecule were studied during chicken experimental muscular dystrophy. alpha-Tocopheryl quinone containing short chain molecule proved to be the most active substance; similarly to vitamin E the preparation increased the erythrocyte resistance to osmotic haemolysis, distinctly increased the content of ubiquinone and decreased concentration of ubichromenol in the chicken liver tissue as compared with E-deficient animals. At the same time, the content of ubiquinone was unaltered in skeletal muscles.

[E-vitamin activity of vitamin E derivatives with experimental encephalomalacia in chicks].

When adding pharmacopoeian alpha-tocopherylacetate, short-chain alpha-tocopherylacetate, alpha-tocopherylquinine, short-chain alpha-tocopherylquinone and alpha-tocopheronolactone to E-avitaminotic rations pharmacopoeian alpha-tocopherylacetate and alpha-tocopheronolactone manifest the highest E-vitamin activity in preventing encephalomalacia in chickens. The action of alpha-tocopheronolactone is not directly associated with changes in the content of vitamin E and ubiquinone in the brain and liver tissues. All the studied derivatives are effective in increasing resistance of erythrocytes to osmotic hemolysis.

[Vitamin E activity of some alpha-tocopherol derivatives and their effect on the ubiquinone level in rat liver in vitro].

An addition of alpha-tocopherol (I) and its synthetic derivatives (alpha-tocopheryl quinone (II), its short-chained analog (III), alpha-tocopherol lactone (IV), and short-chained alpha-tocopheryl acetate (V)) to the homogenized liver of vitamin E deficient rats resulted in a significant increase of ubiquinone after 2 hour incubation. Activity of the above derivatives (II-V) was not associated directly with their transformation into I or with a noticeable increase of the I content. There is a certain correlation between the chemical structure and the level of vitamin E activity of alpha-tocopherol derivatives that led to an increase in the ubiquinone content and prevented the decrease of tissue respiration and termination of pregnancy in rats.